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Preclinical evaluation of Mito-LND, a targeting mitochondrial metabolism inhibitor, for glioblastoma treatment

Tongxuan Guo, Changyong Wu, Lingni Zhou, Junhao Zhang, Wanzhou Wang, Yang Shen, Ludong Zhang, Mingshan Niu, Xu Zhang, Rutong Yu, Xuejiao Liu

2023Journal of Translational Medicine12 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Glioblastoma (GBM) is a brain tumor with the highest level of malignancy and the worst prognosis in the central nervous system. Mitochondrial metabolism plays a vital role in the occurrence and development of cancer, which provides critical substances to support tumor anabolism. Mito-LND is a novel small-molecule inhibitor that can selectively inhibit the energy metabolism of tumor cells. However, the therapeutic effect of Mito-LND on GBM remains unclear. METHODS: The present study evaluated the inhibitory effect of Mito-LND on the growth of GBM cells and elucidated its potential mechanism. RESULTS: The results showed that Mito-LND could inhibit the survival, proliferation and colony formation of GBM cells. Moreover, Mito-LND induced cell cycle arrest and apoptosis. Mechanistically, Mito-LND inhibited the activity of mitochondrial respiratory chain complex I and reduced mitochondrial membrane potential, thus promoting ROS generation. Importantly, Mito-LND could inhibit the malignant proliferation of GBM by blocking the Raf/MEK/ERK signaling pathway. In vivo experiments showed that Mito-LND inhibited the growth of GBM xenografts in mice and significantly prolonged the survival time of tumor-bearing mice. CONCLUSION: Taken together, the current findings support that targeting mitochondrial metabolism may be as a potential and promising strategy for GBM therapy, which will lay the theoretical foundation for further clinical trials on Mito-LND in the future.

Topics & Concepts

GlioblastomaCancer researchMedicinePharmacologyMetabolismMitochondrionBioinformaticsBiologyInternal medicineBiochemistryMitochondrial Function and PathologyCancer, Hypoxia, and MetabolismATP Synthase and ATPases Research